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Related Experiment Video

Updated: May 20, 2026

Fabrication of Three-Dimensional Graphene-Based Polyhedrons via Origami-Like Self-Folding
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Fabrication of Three-Dimensional Graphene-Based Polyhedrons via Origami-Like Self-Folding

Published on: September 23, 2018

Patterning of graphene.

Ji Feng1, Wenbin Li, Xiaofeng Qian

  • 1International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, China.

Nanoscale
|July 10, 2012
PubMed
Summary
This summary is machine-generated.

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Patterning two-dimensional carbon atomic sheets like graphene enables unique properties and applications. Precise control over graphene

Area of Science:

  • Materials Science
  • Nanotechnology
  • Condensed Matter Physics

Background:

  • Two-dimensional atomic sheets of carbon, including graphene and graphane, offer unique structural and electronic properties.
  • These materials are susceptible to various patterning techniques, influencing their characteristics.

Purpose of the Study:

  • To review the theoretical understanding and processing methods for patterning graphene.
  • To highlight potential applications arising from patterned graphene structures.
  • To explore future prospects of integrating patterned graphene with other carbon nanostructures.

Main Methods:

  • Theoretical analysis of patterning effects on graphene properties.
  • Review of experimental processing routes for graphene patterning.

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Optimized Fabrication Procedure for High-Quality Graphene-based Moir&#233; Superlattice Devices
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Fabrication of Three-Dimensional Graphene-Based Polyhedrons via Origami-Like Self-Folding

Published on: September 23, 2018

Fabrication of Gate-tunable Graphene Devices for Scanning Tunneling Microscopy Studies with Coulomb Impurities
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  • Discussion of integration strategies with carbon nanotubes and programmable folding.
  • Main Results:

    • Graphene patterning via cutting, bending, folding, and fusion can lead to novel properties.
    • Established theoretical frameworks support the manipulation of graphene's characteristics through patterning.
    • Identified potential applications leveraging these patterned structures.

    Conclusions:

    • Advanced patterning techniques are crucial for unlocking the full potential of graphene.
    • Integration of flat graphene with curved carbon nanostructures and programmable folding presents exciting future directions.
    • Scalable and precise patterning will drive innovation in graphene-based technologies.